In perfectly inelastic collisions, the relative velocity of the bodies :

Define relative velocity?

prove that in an elastic collision the relative velocity of approach before collision is equal to relative velocity of separation after collision.

Define elastic collision. Show thaat in an elastic collision, relative velocity of approach before collision is equal to relative velocity of separation after collisions.

Prove that during elastic collision fo two bodeis ,the relative velocity of approach before collision is equal to relative velocity of seperation after collision.

If gas molecules undergo inelastic collision with the wall of the container:

A and B are two particles having the same mass m. A is moving along X-axis with a speed of 10ms^(-1) and B is at rest. After undergoing a perfectly elastic collision with B, particle A gets scattered through an angle of 30^(@). What is th edirection of motion of B, and the speeds of A and B, after the collision?

Fill in the blanks: Relative velocity ______.

What do you understand by relative velocity?

Define Relative Velocity?. Show that the relative velocity of an object '2' relawtive to another object '1' moving in one dimension is (v_2-v_1) .

A body A is going frm south to north and body B is going from west to east .then the directin of relative velocity of A with respect to B is :